In many cases the surfaces of geometric models consist of a large number of triangles. Several algorithms were developed to reduce the number of triangles required to approximate such objects. Algorithms that measure the deviation between the approximated object and the original object are only available for special cases. In this paper we use the Hausdorff distance between the original and the simplified mesh as a geometrically meaningful error value which can be applied to arbitrary triangle meshes. We present a new algorithm to reduce the number of triangles of a mesh without exceeding a user-defined Hausdorff distance between the original and simplified mesh. As this distance is parameterization-independent, its use as error measure is ...
Abstract We present a new method for feature preserving mesh simplification based on feature sensiti...
Throughout the years the size of datasets has increased so much that problems arise for their visual...
This paper proposes a user-assisted mesh simplification method applied to CAD models converted to tr...
In many cases the surfaces of geometric models consist of a large number of triangles. Several algor...
Complex models generated e.g. with a laser range scanner often consist of several thousand or millio...
Complex models generated e.g. with a laser range scanner often consist of several thousand or millio...
Modern 3D scenners produce detailed and vast scenes consisting of huge number of triangles. This the...
In geometric modeling and processing, computer graphics, smooth surfaces are approximated by discret...
This paper presents a novel technique for simplifying a triangulated surface at different levels of...
We propose a new mesh simplification scheme, which is controlled by the discrete cur-vature error me...
Most of the existing algorithms for decimation of triangular meshes perform poorly at very low level...
For twenty years, it has been clear that many datasets are excessively complex for applications such...
In this paper, we describe two different forms of the error metric proposed in [5] for computing loc...
Copyright 2007 Society of Photo-Optical Instrumentation Engineers. One print or electronic copy may ...
Figure 1: Interactive Hausdorff Distance Computation. Our algorithm can compute Hausdorff distance b...
Abstract We present a new method for feature preserving mesh simplification based on feature sensiti...
Throughout the years the size of datasets has increased so much that problems arise for their visual...
This paper proposes a user-assisted mesh simplification method applied to CAD models converted to tr...
In many cases the surfaces of geometric models consist of a large number of triangles. Several algor...
Complex models generated e.g. with a laser range scanner often consist of several thousand or millio...
Complex models generated e.g. with a laser range scanner often consist of several thousand or millio...
Modern 3D scenners produce detailed and vast scenes consisting of huge number of triangles. This the...
In geometric modeling and processing, computer graphics, smooth surfaces are approximated by discret...
This paper presents a novel technique for simplifying a triangulated surface at different levels of...
We propose a new mesh simplification scheme, which is controlled by the discrete cur-vature error me...
Most of the existing algorithms for decimation of triangular meshes perform poorly at very low level...
For twenty years, it has been clear that many datasets are excessively complex for applications such...
In this paper, we describe two different forms of the error metric proposed in [5] for computing loc...
Copyright 2007 Society of Photo-Optical Instrumentation Engineers. One print or electronic copy may ...
Figure 1: Interactive Hausdorff Distance Computation. Our algorithm can compute Hausdorff distance b...
Abstract We present a new method for feature preserving mesh simplification based on feature sensiti...
Throughout the years the size of datasets has increased so much that problems arise for their visual...
This paper proposes a user-assisted mesh simplification method applied to CAD models converted to tr...